EP1258764B1 - Compact image pickup apparatus - Google Patents

Compact image pickup apparatus Download PDF

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Publication number
EP1258764B1
EP1258764B1 EP02010753A EP02010753A EP1258764B1 EP 1258764 B1 EP1258764 B1 EP 1258764B1 EP 02010753 A EP02010753 A EP 02010753A EP 02010753 A EP02010753 A EP 02010753A EP 1258764 B1 EP1258764 B1 EP 1258764B1
Authority
EP
European Patent Office
Prior art keywords
lens
image pick
image
supporting part
optical axis
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
EP02010753A
Other languages
German (de)
English (en)
French (fr)
Other versions
EP1258764A3 (en
EP1258764A2 (en
Inventor
Susumu Yamaguchi
Hiroyuki Hattori
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Konica Minolta Inc
Original Assignee
Konica Minolta Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from JP2001148913A external-priority patent/JP4721136B2/ja
Priority claimed from JP2001153635A external-priority patent/JP2002350608A/ja
Application filed by Konica Minolta Inc filed Critical Konica Minolta Inc
Publication of EP1258764A2 publication Critical patent/EP1258764A2/en
Publication of EP1258764A3 publication Critical patent/EP1258764A3/en
Application granted granted Critical
Publication of EP1258764B1 publication Critical patent/EP1258764B1/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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Classifications

    • GPHYSICS
    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS OR APPARATUS
    • G02B7/00Mountings, adjusting means, or light-tight connections, for optical elements
    • G02B7/02Mountings, adjusting means, or light-tight connections, for optical elements for lenses
    • G02B7/022Mountings, adjusting means, or light-tight connections, for optical elements for lenses lens and mount having complementary engagement means, e.g. screw/thread
    • GPHYSICS
    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS OR APPARATUS
    • G02B13/00Optical objectives specially designed for the purposes specified below
    • G02B13/001Miniaturised objectives for electronic devices, e.g. portable telephones, webcams, PDAs, small digital cameras
    • G02B13/0015Miniaturised objectives for electronic devices, e.g. portable telephones, webcams, PDAs, small digital cameras characterised by the lens design
    • G02B13/002Miniaturised objectives for electronic devices, e.g. portable telephones, webcams, PDAs, small digital cameras characterised by the lens design having at least one aspherical surface
    • GPHYSICS
    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS OR APPARATUS
    • G02B7/00Mountings, adjusting means, or light-tight connections, for optical elements
    • G02B7/02Mountings, adjusting means, or light-tight connections, for optical elements for lenses
    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03BAPPARATUS OR ARRANGEMENTS FOR TAKING PHOTOGRAPHS OR FOR PROJECTING OR VIEWING THEM; APPARATUS OR ARRANGEMENTS EMPLOYING ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ACCESSORIES THEREFOR
    • G03B30/00Camera modules comprising integrated lens units and imaging units, specially adapted for being embedded in other devices, e.g. mobile phones or vehicles

Definitions

  • the present invention relates to an image pick-up lens, an image pick-up apparatus and a method for forming the image pick-up lens; and particularly to an image pick-up lens and an image pick-up apparatus which can be mounted on a cellular phone or a personal computer, and to a method for forming such a lens and apparatus.
  • a subject is converted into an image data by a digital still camera or the like, and such an image data is then transferred via a personal computer or the like via the Internet.
  • This method requires both a digital still camera and a personal computer to be purchased in order to transfer image data.
  • attempts have been made to mount such an image device as a CCD (Charge Coupled Device) type image sensor on the cellular phone. Such an attempt will eliminate the need of purchasing a digital still camera and personal computer, and will provide easy means of sending an image to a counterpart device through a cellular phone which can be easily carried.
  • CCD Charge Coupled Device
  • the weight of a cellular phone will be increased if the cellular phone is equipped with the function of a large-sized digital still camera which is much larger than the cellular phone, with the result that the phone cannot be easily carried.
  • the manufacturing cost will be increased that much.
  • Fig. 6 is a cross sectional view representing an example of the image pick-up apparatus according to the prior art.
  • An image pick-up device 110 is laid out on the base board PC made of glass epoxy, and is connected to the image processing IC circuit 111 provided on the back surface of the base board PC via multiple wires W leading from the stop surface of a terminal (not illustrated).
  • a first enclosure 101 is provided so as to cover the image pick-up device 110, and a second enclosure 102 is mounted thereon. They are locked together on the base board by means of bolts 103.
  • An infrared ray cutoff filter is arranged between the first enclosure 101 and second enclosure 102.
  • the top of the second enclosure 102 is cylindrical, and the lens body tube 105 enclosing a lens 106 is mounted in such a way that the position of this body tube can be adjusted in the direction of optical axis with respect to the second enclosure 102 by meshing a male screw 105a with a female screw 102a formed inside the second enclosure 102.
  • a lens aperture 105b is formed on the top of the lens body tube 105.
  • Such an image pick-up apparatus is a comparatively large-sized apparatus comprising multiple component parts.
  • this configuration will require a lot of time in assembling these parts, and the relative position between the image pick-up device 110 and lens 106 must be adjusted by rotating the lens body tube 105 at the time of assembling.
  • this method raises the problem of what profile the lens supporting part should have. For example, three or four legs are extended from the lens toward the image pick-up device. These legs, however, has a problem of being easily deformed by external force. If legs are deformed, a deviation is caused between the photo-electric conversion unit of the image pick-up device and lens focusing point, and this may deteriorate the image quality.
  • Another problem is how to manufacture an image pick-up lens where the periphery of a lens is extended in the direction of optical axis. If plastic is used as a material, a mass production of image pick-up lens of stable quality can be achieved by injection molding using a mold. If injection molding is used, however, burrs are likely to be formed on the split portion of the mold. When the gate is cut off, burrs are also likely to occur. Depending on the position of these burrs, the assembling precision may be deteriorated, with the result that function of the image pick-up device may not be fully performed.
  • a further problem is how to adjust the positional relationship between the surface formed by the tip of supporting part and lens surface in order to ensure precise layout of the photo-electric conversion unit of the image pick-up device.
  • WO 93 22787 A discloses an image pick-up apparatus comprising a base board, an image pick-up device to convert an optical image into image signals, said image pick-up device being provided on said base board, a photo-electric conversion unit provided on the upper surface of said image pickup device and an image pick-up lens to form images on said photo-electric conversion unit.
  • the lens comprises a lens part to form an image point of an object point, a supporting part to support the lens part and integrally formed with the lens part.
  • the supporting part is formed of a plurality of legs.
  • GB 2 133 573 A discloses a viewer for inclusion in, on or with an item of fancy goods such as a keyring, plaque, purse, wallet, trinket, toy or the like and comprising a lens and a tubular a supporting part to support the lens part and integrally formed with the lens part.
  • the supporting part has a tubular form extending from the periphery of the lens part along the optical axis of the lens part.
  • US 5 783 815 A discloses in connection with Fig. 9 an image pick-up lens to form images on a photo-electric conversion unit of an pick-up device.
  • the image pickup lens of this state of the art comprises a lens part to form an image point of an object point, and a supporting part to support the lens part and integrally formed with the lens part.
  • the supporting part has a tubular form extending from the periphery of the lens part along the optical axis of the lens part. This document does not show that the supporting part comprises plural contact portions protruding from the lower end of the supporting part, that the tips of the plural contact portions are included in an ideal plain surface perpendicular to the optical axis of the lens part, and that the image point is located in the ideal plain surface.
  • an adhesive is used to fix the supporting part in a grove provided in the base board.
  • a tubular supporting part it is possible to use a supporting part having two legs supported at least partially on the photo-electric conversion unit.
  • the present invention has been made to solve these problems. Its object is to provide a highly reliable image pick-up lens, image pick-up apparatus and their forming method wherein a reduced number of component parts can be assembled accurately in a compact configuration at a reduced cost without the need of adjustment, and dust- and moisture-proof structure is provided to ensure high quality image.
  • the periphery of the lens part is defined to mean the area other than the area transmissive to light in the lens at least.
  • the supporting part formed in the direction of optical axis should be understood to mean not only the supporting part formed accurately in parallel to the optical axis, but also the supporting part which is formed in such a way that the lens is positioned with a predetermined space relative to the photo-electric conversion unit of the image pick-up device.
  • to form an image point of object point at predetermined distance means forming an image point of an object point located somewhere between infinitely far distance and close distance.
  • the image pick-up lens of the present invention flow of resin to the lens is improved by installing a gate on the flange part, for example, at the time of injection molding. While making an effective use of this advantage, the lens part is positioned in the direction at right angles to the optical axis, using the outer surface of the supporting part arranged on the side close to the optical axis with respect to the aforementioned flange part. In the step of positioning, this makes it possible to ignore the impact of burrs or flashes which may occur to the gate, with the result that positioning accuracy is improved.
  • the supporting part can be extended to each side in the direction of optical axis.
  • the aforementioned supporting part has a positioning surface (contacting portion) for use in positioning in the direction of optical axis. This structure ensures easier positioning in that direction.
  • the aforementioned flange part is located at the place subjected to elastic force of an elastic member.
  • This elastic member is preferred to be made of a coil spring because stable elastic force can be maintained for a long period of time.
  • the aforementioned flange part is preferred to have a rotary stopper since it avoids inadvertent rotation of the image pick-up lens.
  • this rotary stopper is preferred to be D-cut since it allows the rotary stopper to be formed easily.
  • a shoulder for fitting the aperture member for regulating the F-number of the lens is preferred to be formed on the object side of the lens because it facilitates the installation of an aperture.
  • FIG. 1(a) and 1(b) are cross sectional views of the image pick-up apparatus as an embodiment of the present invention.
  • Fig. 2 is a perspective view of the image pick-up apparatus given in Fig. 1 .
  • Fig. 3 is a perspective view of the image pick-up lens.
  • Figs. 4(a) to (d) is a bottom view of the image pick-up lens.
  • Figs. 5(a) and 5(b) is a top view of the image pick-up device.
  • the image pick-up lens is made of transparent plastic material, and, as shown in Fig. 1 , comprises a cylindrical supporting part 1c, four contact portion 1d formed on the tip of a supporting part 1c as its component thereof, a flange 1e formed around the top end of the supporting part 1c, a plate-formed top surface 1b blocking the top end of the supporting part 1c, and a convex lens 1a formed at the center of the top surface 1b, which are integrally formed in one piece.
  • the substantially cylindrical flange part 1e is partly notched as an engagement section for positioning in the direction intersecting the optical axis, as shown in Figs. 4(b) to (d) . It is preferred to form a D-cut portion 1f.
  • the supporting part 1c is preferred to be arranged inside (on the side closer to the optical axis)) in the direction at right angles to the optical axis, even when the cut portion 1f is included.
  • the gate at the time of injection is arranged on the outer periphery (not illustrated) of the flange part 1e, effective flow of the resin to the lens 1a is ensured.
  • a aperture plate 3 having an opening 3a as a first aperture for defining the F-number of the convex lens 1a is bonded on the upper surface of the top surface 1b around the convex lens 1a by an adhesive or the like.
  • a lens frame 4 consisting of lightproof material is arranged outside the image pick-up lens 1.
  • the lens frame 4 is provided with a rectangular bottom 4a and a cylindrical top 4b.
  • the lower end of the bottom 4a contacts the top of a base board PC, and is bonded together by an adhesive B.
  • the side surrounding the upper surface of the bottom 4a is covered with a partition 4c, and the cylindrical inner peripheral surface 4d of the partition 4c is fitted closely with the outer peripheral surface 1g (fitting portion) of the supporting part 1c of image pick-up lens 1.
  • lens 1a can be positioned accurately in the direction perpendicular to the optical axis with respect to the photo-electric conversion unit 2d of the image pick-up device 2b to be described later, merely by positioning the base board PC and lens frame 4 using an optical sensor (not illustrated) or the like mounted on a automatic assembling machine.
  • a lightproof plate 5 is bonded onto the upper end of the top 4b of the lens frame 4 by adhesive B.
  • An opening 5a as a second aperture is located at the center of the lightproof plate 5.
  • a filter 7 consisting of a infrared ray absorbing material is bonded below the opening 5a of the lightproof plate 5 by adhesive B.
  • a cover is formed by the lightproof plate 5 and filter 7.
  • an elastic member 6 comprising a rubber or the like is arranged between the lightproof plate 5 and flange part 1e of the image pick-up lens 1, and is subjected to elastic deformation when the lightproof plate 5 is mounted on the lens frame 4.
  • the image pick-up lens 1 is pressed downward by this elastic force in Fig. 1 . Accordingly, the force of the lightproof plate 5 is transmitted to the base board PC, but not directly to the image pick-up device 2b.
  • the elastic member 6 is preferred to be a coil spring which ensures stable elastic force for a long period of time. When the elastic member 6 is formed integrally with the aperture plate 3, the number of component parts can be reduced.
  • the image pick-up unit 2 comprises of an image pick-up device 2b such as a CMOS (Complementary Metal Oxide Semiconductor) type image sensor or CCD type image sensor.
  • the lower surface of the rectangular thin-plate image pick-up device 2b is installed on the upper surface.
  • the photo-electric conversion unit 2d with pixels arranged in two-dimensional terms is formed at the center of the upper surface of the image pick-up device 2b.
  • a surrounding surface 2a which is located inside the image pick-up device 2b with an image processing circuit formed therein.
  • Multiple pads 2c are arranged in the vicinity of the periphery of a surrounding area 2a intersecting so as to be perpendicular to the thin side surface.
  • a pad 2c as a wiring terminal is connected to the base board PC via a wire W, as shown in Figs. 1(a) and (b) .
  • the contacting portion 1d of the image pick-up lens 1 is designed in a shape shown in Figs. 4(a) to (d) . It is protruded from the lower end of a supporting part 1c to form part of the supporting part 1c. In other words, the contact portion 1d is provided discontinuously in the circumferential direction of the supporting part 1c. In the present embodiment, only the contact portion 1d is arranged in contact inside the pad 2c in the surrounding area 2a of an image pick-up device 2b, as shown by the dotted line of Figs.5(a) and (b) . Accordingly, for surface parallelism, it is sufficient that only the lower surface of the contact portion 1d is maintained within a predetermined range.
  • a circuit (not illustrated) of the image pick-up device (including a signal processing circuit) is provided on the back of the surrounding surface 2a (on the lower surface side in Fig. 1 ). Through the contact of the contact portion 1d, means are provided to ensure that circuit processing is not affected.
  • a corner 2g of the photo-electric conversion unit 2d shown in Fig. 5(a) becomes an area independent of image formation if the effective pixel area is made slightly smaller than the entire pixel area. In this case, it can be said that there is little impact of the image pick-up device 2b on the image pick-up performance even inside the photo-electric conversion unit 2d, even though the contact portion 1d is brought in contact with the area of the corner 2g.
  • the load from the contacting portion 1d is preferred not to exceed 500 grams (with the surface pressure of 1000g/mm 2 or less). If this load is exceeded, the image pick-up device 2b may be damaged.
  • the load from the contacting portion 1d is preferred to be 5 grams or more.
  • the supporting part 1c extends to the vicinity of the focusing point of the convex lens 1a from the convex lens 1a in a cylindrical form in the direction of optical axis. So the convex lens 1a is protected against external force by the highly rigid cylindrical supporting part 1c, and is supported. Moreover, the focusing point of the convex lens 1a and the photo-electric conversion unit 2d can be adjusted accurately by contacting the contacting portion 1d as an end of the supporting part 1c to the surrounding surface 2a of the image pick-up device 2a.
  • the supporting part 1c is designed in a cylindrical form, and this allows the mold structure to be simplified when the image pick-up lens is manufactured by injection molding. Also, this profile ensures that flow of material from the gate (not illustrated) around the convex lens 1a at the time of injection molding is not easily blocked, and effectively prevents unsymmetrical geometric error from occurring on the convex lens 1a.
  • the supporting part 1c is preferred to have a contacting portion 1d as an end portion whose thickness in the direction perpendicular to optical axis is smaller than that of the cylindrical portion. If the split portion of the mold of the image pick-up lens is placed at the portion having greater thickness than that of the contact portion 1d (point P in Fig. 1(a) , for example), this structure eliminates the possibility of burrs occurring between the contacting portion 1d and the surrounding surface 2 of the image pick-up device 2b, even if burrs have occurred along the split portion of the mold at the time of molding.
  • the contacting portion whose lower end surface serves as a positioning surface is formed in a cylindrical convex which is located farther from optical axis than the inner diameter (the minimum dimension in the direction intersecting the optical axis) in supporting part 1c, and is located closer to optical axis than the outer diameter (the maximum dimension in the direction intersecting the optical axis) in supporting part 1c.
  • the spatial plane surface including each end face of the contacting portion 1d is arranged so as to be perpendicular to the optical axis and the gravity center of the image pick-up lens 1 is arranged within the area enclosed by each end face.
  • This structure allows the image pick-up lens 1 to be supported with the optical axis of the convex lens 1a perpendicular to this plane surface, when the image pick-up lens 1 is mounted on the plane surface as a single unit.
  • This structure permits the image pick-up lens 1 to stand upright, for example, with the contacting portion 1d kept in contact with the plane surface at the time of assembling. This is convenient because there is no need of using a support base.
  • the image pick-up lens 1 can be maintained without play in the presence of vibration if the image pick-up lens 1 is pushed toward the image pick-up device 2b by means of an elastic member 6 when the image lens 1 is built in the lens frame 4.
  • the inner peripheral surface is tapered so that the diameter is reduced as it comes closer to the lens, and the taper angle ( ⁇ in Fig. 1 ) of this tapered surface is preferred to be 3 degrees or more. It may be possible to provide a minute irregular shape on the inner peripheral surface of the supporting part 1c in order to scatter the unwanted light reflected by the supporting part 1c when this light does not contribute to image formation. However, this may deteriorate mold-releasing property on the inner peripheral surface. To solve this problem, the taper angle of the tapered surface is increased to 3 degrees or more in the present embodiment. This improves mold-releasing property in injection molding operation.
  • a gap ⁇ is formed between the lower surface of the flange part 1e of the image pick-up lens 1 and partition 4c of the bottom 4a of the lens frame 4 with the contacting portion 1 kept in contact with the surrounding surface 2a of the image pick-up device 2b. So the distance L between the lens 1a and the photo-electric conversion unit 2d of the image pick-up device 2b (positioning in the direction of optical axis) can be accurately set by the length of the leg 1c.
  • four contacting portions are provided, but the number may be reduced to one to three. Further, the contacting portion may be a strap-formed one along the cylindrical supporting part 1c of the image pick-up lens 1 if interference with a pad 2c can be avoided.
  • the contacting portion need not always be formed in a cylindrical shape or at an equally spaced interval. It can be formed in an unsymmetrical profile as exemplified by the contacting portion 1d' in Fig. 4(d) .
  • the image pick-up lens 1 is made of plastic material, it is possible to minimize the deviation of the focusing position caused by changes refractive index of the lens in the event of temperature change. That is, the refractive index of the plastic lens is decreased with the rise of temperature, and a change occurs in such a way that the focusing point is removed away from the lens. In the meantime, the supporting part 1c is stretched by the rise of temperature, and this property has the effect of reducing deviation of the focusing point.
  • the image pick-up lens 1 according to the present invention is made of plastic material having a comparatively small specific gravity. It is lighter than glass with the same volume, and has a superb impact absorbing property. This feature provides an advantage of minimizing the possible damage of image pick-up device 2b when the image pick-up device is dropped inadvertently.
  • a D-cut portion 1f is used as a rotation stopper in the present embodiment.
  • a semicircular portion 4e protruding toward the inner peripheral side is formed on part of the upper half portion 4b of the lens frame 4 shown by the dotted line, in conformity to the D-cut portion 1f of the flange part 1e of the image pick-up lens 1, as shown in Fig. 4(b) . If the image pick-up lens 1 and lens frame 4 make an attempt to make a relative rotation from the position shown in Fig. 4(b) , there is interference between the D-cut portion 1f and semicircular portion 4e, thereby blocking this relative rotation.
  • the lens 1a of the image pick-up lens 1 allows the image of a object to be formed on the photo-electric conversion unit 2d of the image pick-up device 2b.
  • the image pick-up device 2b is designed to be capable of converting electric signals into the image signal, etc. in response to the amount of received light, and outputting them via the pad 2c and wire W.
  • the image pick-up lens 1 is mounted on the surrounding surface 2a of the image pick-up device 2b, not on the base board PC. This eliminates the need of adjusting the focusing point of the lens 1a at the time of assembling by controlling the dimensional accuracy of the supporting part 1c (including the contact portion 1d) of the image pick-up lens 1, namely the accuracy of the aforementioned distance L.
  • the image pick-up apparatus of the present invention has no focus adjustment function, so it is preferred to use a pan-focus lens which provides focus adjustment from the object in the distance to the one at a short distance. It becomes possible to regard, from an infinite distance in terms of geometrical optics, that an object at a distance of U/2 is placed in focus, by matching the positions in the direction of optical axis between the image point of the lens 1a and photo-electric conversion unit 2d of the image pick-up device 2b at the hyperfocal distance U ⁇ f 2 / (F ⁇ 2P) (where f denotes a lens focal distance, F a F-number of the lens, P a pixel pitch of the image pick-up device).
  • the deviation in the direction of optical axis between the photo-electric conversion unit 2b and image point in the reference object distance of lens 1a must be kept at about ⁇ 0.5 ⁇ (F ⁇ 2P) (where F denotes the F-number of the image pick-up lens in terms of equivalent shear force and P a pixel pitch of image pick-up device). More preferably, this deviation is kept at about ⁇ 0.25 ⁇ (F ⁇ 2P). If this value is excessive, the image quality at an infinitely long distance or at close range will be deteriorated.
  • the F-number is one of the quantities representing brightness in an optical system, and is represented by the value obtained by dividing the equivalent focal distance of the lens by the entrance pupil diameter. For example, when the focal distance is 100mm and the entrance pupil diameter is 50mm, the F-number is 2 (See the Dictionary of Optronics Terminology).
  • the image pick-up lens 1 is designed in such a shape as to ensure matching of positions in the direction of optical axis between the image point position (focusing position) of lens 1a at a reference object distance of 500mm, and the lower surface of the contacting portion 1d.
  • This provides a structure of an image pick-up device which ensures matching between the image point of lens 1a and the photo-electric conversion unit 2d.
  • there are production errors such as a surface profile error of the lens 1a of the image pick-up lens 1, refractive index error and dimensional error of the supporting part 1c (including the contacting portion 1d). These production errors are taken into account and the deviation between the image point of lens 1a (focusing point) and the lower surface of the contacting portion 1d in the direction of optical axis is kept at or below the aforementioned ⁇ 0.5 ⁇ (F ⁇ 2P).
  • the image point position (focusing position) is defined as a position which provides excellent images at the center and in the peripheral area, with consideration given to the curvature of the image surface. The example described above is based on the assumption that there is no level difference between the photo-electric conversion unit 2d of the image pick-up device 2b and peripheral surface 2a.
  • the contacting portion 1d of the supporting part 1c of the image pick-up lens 1 contacts the surrounding surface 2a of the image pick-up device 2b, whereby positioning is performed between the lens 1a and the photo-electric conversion unit 2d of the image pick-up device 2b in the direction of optical axis.
  • the lens frame 4 is installed on the base board PC, positioning is performed between the lens 1a and the photo-electric conversion unit 2d of the image pick-up device 2b in the direction of optical axis. This feature ensures high positioning accuracy at a lower cost.
  • the contacting portion 1d can have a greater contact area while the image pick-up device 2b is kept in a compact configuration, if the contacting portion 1d of the supporting part 1c is arranged so as to contact the peripheral surface 2a on the side of the photo-electric conversion unit 2d rather than the pad 2c. This stabilizes the image pick-up lens 1, and keeps the pressure of the contact surface at a low level. This arrangement protects the image pick-up device 2b, avoids interference with the pad 2c and wire W and ensures high precision positioning.
  • the lens frame 4 is bonded to the base board PC, and is kept sealed against outside the image pick-up device together with other two bonded portions in such a way that the foreign substances will not enter, thereby preventing an adverse effect of foreign substances upon the photo-electric conversion unit 2d of the image pick-up device 2.
  • the adhesive is preferably provided with moisture proof treatment. This will prevent the surface of the image pick-up device or pad from being deteriorated.
  • the elastic member 6 for pressing the lens 1a against the lens frame 4 in the direction of optical axis.
  • the elastic member 6 is preferably a coil spring which applies pressure to the flange 1e of the image pick-up lens 1 in the direction of optical axis at a predetermined force.
  • the lens can be pressed in the direction of optical axis at a proper contact force (equivalent to the aforementioned load from 5 to 500 grams) using the elastic force of this elastic member 6, without undue stress being applied to the surrounding area 2a of the image pick-up device 2b with a built-in circuits and devices, or without the image pick-up lens 1 being unsteady due to vibration.
  • a cover member comprising a lightproof plate 5 and filter 7 is arranged on the side of a object rather than the lens 1a.
  • This arrangement protects the lens 1a without allowing it be exposed to the outside, and prevents foreign substances from being deposited on the lens surface.
  • the filter 7 is made of the material provided with infrared absorption characteristics without the need of installing a separate infrared ray cutting filter, thereby cutting the number of parts to be used.
  • the filter 7 having a infrared ray cut-off characteristics it is also possible to form the image pick-up lens 1 out of a material having infrared absorbing characteristics, or to coat the surface of the lens 1a with a film having a infrared cutting characteristics.
  • the lens 1 can be inserted into the lens frame 4 from the side of the object, with the lightproof plate removed from the lens frame 4 at the time of assembling. After that, the lightproof plate can be assembled with the lens frame 4.
  • This configuration facilitates assembling of the image pickup lens 1 and ensures easy assembling in the automatic mode.
  • a air vent is provided somewhere on the bottom 4a of the lens frame 4, assembling is facilitated even if there is a very small gap between the lens frame 4 and image pick-up lens 1.
  • Such an air vent is preferably sealed with a filling material subsequent to assembling, thereby preventing the surface of the image pick-up device or pad from being deteriorated by entry of foreign substances or moisture from the outside.
  • the filling material used in this case is preferably a lightproof one in order to avoid light leakage.
  • the image pick-up lens 1 can be inserted after the lens frame 4 has been bonded to the base board PC, or can be bonded to each base board PC for each unit after it has been installed on the lens frame 4. This provides freedom in the production process. When the latter assembling step is followed, the partition 4c of the mirror lens 4 also performs a function of preventing the image pick-up lens 1 from being disconnected.
  • the supporting part 1c of the image pick-up lens 1 is located close to the photo-electric conversion unit 2d of the image pick-up device 2b, so luminous flux not contributing to the image formation is reflected by the supporting part 1c to enter the photo-electric conversion unit 2d. This gives rise to a concern that ghost or flare may be caused. To avoid this, it is effective to provide a second aperture (opening 5a) for defining the surrounding luminous flux on the object side of the first aperture (opening 3a) for defining the F-number of the lens 1a, thereby minimizing the entry of unwanted light.
  • the angle of view is different on the short or long side or on a diagonal line of the photo-electric conversion unit 2d of the image pick-up device 2b.
  • the opening 5a of the second aperture in a rectangular form.
  • the opening 5a of the lightproof plate 5 is equipped with this function. It is also possible to form an aperture by coating or applying a lightproof film on the object side of the filter 7, in addition to the required opening. Also, for the same reason, it is preferred to provide internal surface reflection preventive treatment on at least part of the supporting part 1c.
  • the internal surface reflection preventive treatment includes the formation of a surface roughened by providing microscopic asperities to prevent scattering of luminous flux which does not contribute to image formation, or application of reflection preventive coating material or low-reflecting coating material. It is possible to prevent transmitted light from reaching the photo-electric conversion unit 2d of the image pick-up device 2b by making the supporting part 1c out of colored lightproof material.
  • An aperture plate 3 with an opening 3a is placed on the incident side of the lens 1a, so the luminous flux incident on the photo-electric conversion unit 2d of the image pick-up device 2b can be made to enter at an angle close to a vertical line, i.e. it can be made into light close to telecentric light, thereby obtaining the higher image quality.
  • the lens 1a is made into a positive lens where the surface of higher curvature is directed to the image side, it is possible to assign a larger space between the aperture (opening 3a) and the principal point of the lens 1a, whereby a preferable configuration close to a telecentric one can be provided.
  • the lens 1a is formed in a meniscus profile with the conveying side facing the image side. To ensure higher image, the lens is preferably made of multiple lenses.
  • Fig. 7 is a cross sectional view representing an example of a variation of the image pick-up lens.
  • a shoulder 1h protruding in a cylindrical form is provided on the top surface of the image pick-up lens 1, and an aperture plate 3' is provided in such a way that as surrounding cylindrical portion 3b'is fitted to this shoulder 1h".
  • the center of the aperture 3' is equipped with an opening 3a' serving as an aperture.
  • Fig. 8 is a cross sectional view of an image pick-up apparatus as a second embodiment.
  • the second embodiment is different from the aforementioned embodiment only in that the configuration of the aperture plate and lightproof plate has been changed.
  • the same numerals will be used to denote the same portions in the same configuration including that of the contact portion between the supporting part and image pick-up device, and description will be omitted to avoid duplication.
  • a holding member 5' whose upper surface is covered with a lightproof sheet 8 is installed on the upper end of the top 4b of the lens frame 4 by adhesive B.
  • a filter 7' made of an infrared absorbing characteristics is fitted in the opening 5a' at the center of the holding member 5' comprising a lightproof material.
  • a tapered surface 5b' is formed on the upper edge of the opening 5a' of the holding material 5'.
  • the holding material 5' can be bonded with the filter 7' by applying adhesive B to this position.
  • the holding material 5' is provided with a diameter-reducing portion 5c' protruding below the opening 7a' with its diameter gradually reducing, and the portion of the smallest diameter at the bottom end constitutes a first aperture 5d'.
  • the central opening 8a of the lightproof sheet 8 constitutes a second aperture.
  • the holding member 5', filter 7' and lightproof sheet 8 form a cover member.
  • the cover member comprising the holding member 5', filter 7' and lightproof sheet 8 is arranged on the side of the object rather than the lens 1a of the image pick-up lens 1. This ensures protection of the lens 1a without allowing it to be exposed, and prevents foreign substances from being deposited thereon.
  • This cover member can be molded in an integral piece, whereby reducing the number of parts used.
  • the supporting part 1c of the image pick-up lens 1 is arranged close to the photo-electric conversion unit 2d of the image pick-up device 2b, so the luminous flux not used for image formation may be reflected on the supporting part 1c to enter the photo-electric conversion unit 2d and to cause ghost or flare.
  • the present embodiment minimizes entry of unwanted light by arranging the second aperture (opening 8a) for defining the peripheral luminous flux on the object side of the first aperture 5a' for defining the F-number of the lens 1a.
  • the angle of view is different on the short or long side or on a diagonal line of the photo-electric conversion unit 2d of the image pick-up device 2b. More effective results can be obtained by making the opening 5a of the second aperture in a rectangular form.
  • Fig. 9 is a cross sectional view of an image pick-up apparatus as a third embodiment.
  • the third embodiment is different from the aforementioned second embodiment only in that the configuration of the image pick-up lens has been changed in such a way that multiple lenses are provided.
  • the same numerals will be used to denote the same portions in the same configuration including that of the contacting portion between the supporting part and image pick-up device, and description will be omitted to avoid duplication.
  • an image lens 19 comprises an image side lens 1'composed of plastic material and object side lens 9.
  • the image side lens 1' is similar in form to the image pick-up lens 1 shown in Figs. 1(a) and (b) , but the height of the ring 1f' formed on the upper side in the direction of optical axis is greater.
  • the object side lens 9 is arranged above top surface 1b' inside in the radial direction of the ring 1f' via the aperture plate 3 for defining the F-number.
  • the object side lens 9 comprises a flange 9b fitted to the inner periphery of the ring 1f' and lens 9a formed at the center.
  • the lens 1a' of the image side lens 1' is a positive lens, while the lens 1a of the object side lens 9is a negative lens.
  • the aperture plate 3 serves as a spacer for defining the lens distance between lens 1a' and 9a.
  • the inner peripheral surface of the ring 1f' of the image side lens 1' and outer peripheral surface of the flange 9b of the object side flange 9 are of the same diameter, and are in parallel to optical axes.
  • the lenses 1a' and 9a can be positioned in the direction of optical axes by the engagement between these surfaces, and these optical axes can be easily aligned.
  • the object side lens 9 is bonded with the image lens 1' by the adhesive B applied thereabout.
  • the holding member 5' with a thin lightproof sheet 8 bonded thereon is mounted on the upper end of the top 4b of the lens frame 4 using the adhesive B.
  • a filter 7 made of infrared absorbing material is fitted in the opening 5a' at the center of the holding member 5' made of lightproof material.
  • a tapered surface 5b' is formed on the upper edge of the opening 5a' of the holding member 5'.
  • the holding member can be bonded with the filter 7' by applying adhesive B thereto.
  • the holding member 5' is provided with a diameter-reducing portion 5c' protruding below the opening 5' with its diameter gradually reducing, and this portion serves as a lightproof portion for preventing unwanted light from entering.
  • the opening 8a at the center of the lightproof sheet 8 constitutes a second aperture.
  • Fig. 10 is a drawing representing the status of molding an image pick-up lens according to the present invention.
  • Figs. 4(a) to (d) are bottom views of the image pick-up lens obtained from the aforementioned molding procedure.
  • the image pick-up lens 1 is made of transparent plastic and comprises a tubular supporting part 1c, four contact portions 1d formed on the lower end of the supporting part 1c as part thereof, a shoulder 1e formed around the upper end of the supporting part 1c, an plate-formed upper surface 1b for blocking the upper end of the supporting part 1c, and a convex lens 1a formed at the center of the upper surface 1b formed into an integral body, as shown in Fig. 10 .
  • the flange part 1e is not perfectly circular as in the case of in Figs. 4(b) to (d) . Part thereof is preferably cut on the plane surface to form so-called a D-cut portion 1f.
  • the profiles of the upper surface 1b of the image pick-up lens 1 and the upper surface of the convex lens 1a are formed by an upper central mold F1.
  • the profile of the external upper half including the shoulder 1e of the image pick-up lens 1 is formed by an upper peripheral mold F2 arranged around the upper central mold F1.
  • the profile of the external lower half including the supporting part 1c of the image pick-up lens 1 and that of the end portion including the contact portion 1d of the image pick-up lens 1 are formed by a lower half mold F3.
  • the lens 1a of the image pick-up lens 1 and the inside profile including the inner peripheral surface of the supporting part 1c are formed by a core mold F4.
  • the mold split portion at the time of molding operation is preferred to be the portions P1 to P4, as shown in Fig. 10 .
  • the mold of the portion P2 opens and the image pick-up lens 1 remains in molds F1 and F2. Then the mold F1 is pushed out and the image pick-up lens 1 can be taken out.
  • portions P1 to P4 are not in contact with other members. Even if burrs occur to the portions P1 to P4 during the molding operation, there is no adverse effect on positioning (e.g. positioning for focusing the convex lens 1a) at the time of assembling the image pick-up lens 1, thereby ensuring accurate assembling.
  • the focusing position of the lens 1a and end the face of the contacting portion must be aligned in the direction of optical axis.
  • alignment may not be achieved due to insufficient mold accuracy or the like.
  • the core mold F4 is moved in the direction of optical axis in Fig. 10 . This makes it possible to change the distance (L in Fig. 1(b) ) between the lens 1a and the end of the contact portion 1d. If the optimum position of the core mold F4 has been determined, it is possible to get an image pick-up lens 1 which permits formation of images in sharp focus with respect to the photo-electric conversion unit 2d of the image pick-up device 2b.
  • the inner peripheral surface of the supporting part 1c of the image pick-up lens 1 is provided with microscopic asperities in some cases. If an ordinary draft at 2 degrees or less is provided on the outer peripheral surface of the core mold F4, mold-parting property may be deteriorated. To avoid this in the present embodiment, the outer peripheral surface of the core mold F4 is tapered at an angle of 3 degrees or more in such a way that the diameter becomes smaller in the deeper position.
  • the core mold F4 must be moved relative to the mold F3.
  • a cylindrical form is used in the range ( ⁇ ) from the split portion P4 of the mold at the time of molding operation to the point of the maximum travel of the core mold F4 on the outer peripheral surface of the core mold F4 in order to ensure that there is no increase in the clearance between them even when the core mold F4 is moved relative to the mold F3.
  • Fig. 11 is another drawing representing the status of molding an image pick-up lens according to the present invention.
  • Figs. 4(a) to (d) are the bottom views of this image pick-up lens.
  • Fig. 12 is a drawing representing a comparative example. This embodiment is different from the aforementioned embodiments shown in Fig. 1 and others only in the profile of the mold. So description will be omitted to avoid duplication.
  • the lower mold F3' is shaped so as to enclose the lower half of the image pick-up lens 1" entirely as shown in Fig. 12 , then it is possible to prevent the burrs from occurring on the end face of the supporting part 1c".
  • this profile requires such additional processing as cutting of the lower mold F3' in order to adjust the positional relationship between the focusing point of the convex lens 1a" of the image pick-up lens 1" and the end face of the supporting part 1c". It is difficult to adjust the positional relationship accurately.
  • the embodiment shown in Fig. 10 is designed to ensure that the end face of the contact portion 1d can be positioned in the vicinity of the focusing point of the convex lens 1a of the image pick-up lens 1 by adjusting the amount of the protrusion of the core mold F4.
  • the amount of protrusion of the core mold F4 is adjusted, variations may occur to the thickness of the convex lens 1a on the axis. If there is a big deviation of thickness on the axis from the design value, the optical characteristics may be deteriorated.
  • the present embodiment show in Fig. 11 is designed in such a way that the lower circumstantial mold F3 given in Fig. 11 is divided into a circumstantial mold 3A and a terminal mold 3F.
  • the circumstantial mold F3A, terminal mold (first mold) F3B and core mold (second mold) F4 are positioned in the direction of optical axis in Fig. 10 .
  • the terminal mold F3B is subjected to relative shift in the direction of optical axis. This allows the distance (L in Fig. 1(b) ) between the convex lens 1a and contact portion 1d to be adjusted without changing the thickness of the convex lens 1a on the axis.
  • the mold split portions P3 and P4 at the time of molding operation are located away from the end face of the contact portion 1d, similarly to the case of Fig. 1 . So even if burrs have occurred, accurate assembling is ensured without any adverse effect being given to the positioning (e.g. positioning of the focusing point of the convex lens 1a) at the time of assembling of the image pick-up lens 1.
  • Fig. 11 is an aberration drawing the first embodiment (Embodiment 1) of the lens 1a of the optical member 1 which is applicable to the embodiment shown in Figs. 1 and 8 .
  • Table 1 shows the data on the lens according to the present embodiment.
  • the image distance for design reference is 500mm.
  • the lens of the present embodiment is made of poltyolefinic plastic material.
  • f denotes a focal distance (mm) for all systems, F an F-number, ⁇ a half angle of view, r a curvature radius (mm), d a surface spacing on axis (mm), nd a refractive index with respect to line d, and ⁇ a Abbe's number.
  • the asterisk (*) in the surface number denotes non-spherical state.
  • This aspherical surface can be expressed by the following equation in an perpendicular coordinate system with the apex of a surface as an origin and the direction of optical axis as an X-axis direction, where C denotes an apex curvature, K a cone constant, and A4, A4, A7, A10 and A12 aspherical coefficients:
  • Fig. 14 is an aberration drawing on the second embodiment (Embodiment 2) of the lens 1a of the optical member 1 which is applicable to the embodiment shown in Figs. 1 and 8 .
  • Table 1 shows the data on the lens according to the present embodiment.
  • the image distance for design reference is 500mm in the present embodiment.
  • the lens of the present embodiment is made of poltyolefinic plastic material.
  • a wire is used for connection between the image pick-up device 2 and base board PC in the present embodiment. It is also possible to route the wire inside the image pick-up device 2b, and to take out signals from the back (opposite to the photo-electric conversion unit) or side of the image pick-up device 2b. When this configuration is adopted, a wide space can be provided around the image pick-up device, and wire connection can be facilitated. Further, the image pick-up unit is composed only of the image pick-up device which is a bare chip in the present embodiment.
  • the base board need not be hardware; it can be flexible.
  • the image pick-up apparatus of the present invention can be built in a cellular phone, personal computer, PDA, AV device, television set, home electronic appliances and many other products.
  • the present invention provides a highly reliable image pick-up lens, image pick-up apparatus and the image pick-up lens forming method wherein a reduced number of component parts can be assembled accurately in a compact configuration at a reduced cost without the need of adjustment, and dust-and moisture-proof structure is provided to ensure high quality image.

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Optics & Photonics (AREA)
  • Lens Barrels (AREA)
  • Lenses (AREA)
  • Studio Devices (AREA)
  • Transforming Light Signals Into Electric Signals (AREA)
EP02010753A 2001-05-18 2002-05-14 Compact image pickup apparatus Expired - Lifetime EP1258764B1 (en)

Applications Claiming Priority (6)

Application Number Priority Date Filing Date Title
JP2001148913A JP4721136B2 (ja) 2001-05-18 2001-05-18 撮像装置
JP2001148913 2001-05-18
JP2001148911 2001-05-18
JP2001148911 2001-05-18
JP2001153635 2001-05-23
JP2001153635A JP2002350608A (ja) 2001-05-23 2001-05-23 撮像レンズ、撮像装置、金型及び撮像レンズの成形方法

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EP1258764A2 EP1258764A2 (en) 2002-11-20
EP1258764A3 EP1258764A3 (en) 2004-05-12
EP1258764B1 true EP1258764B1 (en) 2008-11-05

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US (1) US7092174B2 (zh)
EP (1) EP1258764B1 (zh)
KR (1) KR20020088364A (zh)
CN (1) CN1206559C (zh)
AT (1) ATE413619T1 (zh)
DE (1) DE60229691D1 (zh)
TW (1) TW535008B (zh)

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US20030016454A1 (en) 2003-01-23
EP1258764A3 (en) 2004-05-12
US7092174B2 (en) 2006-08-15
CN1396473A (zh) 2003-02-12
ATE413619T1 (de) 2008-11-15
KR20020088364A (ko) 2002-11-27
DE60229691D1 (de) 2008-12-18
EP1258764A2 (en) 2002-11-20
TW535008B (en) 2003-06-01
CN1206559C (zh) 2005-06-15

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